Food or edible material: processes – compositions – and products – Inhibiting chemical or physical change of food by contact...
Reexamination Certificate
2000-06-12
2001-11-13
Pratt, Helen (Department: 1761)
Food or edible material: processes, compositions, and products
Inhibiting chemical or physical change of food by contact...
C426S044000, C426S046000, C426S049000, C426S051000, C426S055000
Reexamination Certificate
active
06316035
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to an organic acid fermentation liquid for altering the function of a cell or protein.
BACKGROUND OF THE INVENTION
Until now, there have been various methods for tenderizing meat, such as using a protease (JP-A-7-313108), polyphosphate (JP-A-58-23767), sodium chloride or surfactant.
None of these methods, however, could provide satisfying meat tenderization: protease causes overdecomposition, resulting in too soft meat; polyphosphate not only absorbs water to make meat watery but also may cause possible side-effects since it is a synthetic compound; sodium chloride is not suitable for foods since its larger amount is required to make meat softer which makes meat too salty; and a surfactant cannot tenderize meat sufficiently since it does not permeate into the depth of meat.
On the other hands, phosphates, antibiotics and anti-oxidants have traditionally been used to preserve freshness of fishery products and vegetables.
However, these traditional freshness-preserving methods also had problems. For example, phosphate may make foods watery and allow drippings containing flavorous components to flow out; an antibiotic cannot keep resilience of foods and has inferior antioxidation ability; and an antioxidant cannot keep resilience of foods and may have poor antibiotic ability.
The object of the present invention is to develop an agent which can keep proper moisture, provide better mouth-feeling and preserve freshness of cells or protein-containing materials, without causing any side effect.
DESCRIPTION OF THE INVENTION
The present inventors found, after intensive studies, that it is useful to utilize lontophoresis theory to accomplish the above-described object.
“Iontophoresis” is a method for treating diseases in the medical field, comprising delivery of a therapeutic agent to any affected part of interest through ionic repulsion caused by forcibly introducing the same exogenous ions as in the target tissue and applying a voltage to the tissue. This is an efficient method for reversibly modifying terminal filaments of various protein molecules including intracellurar proteins via ionic repulsion in the presence of water.
This structural change causes incorporation of binding water and other co-existing substances into the protein molecules. The present invention utilizes this theory.
Accordingly, the present invention relates to:
(1) an organic acid fermentation liquid produced by fermentation of a carbohydrate(s), wherein the liquid is adjusted to a pH of 6-10 by adding a carbonate salt during the fermentation;
(2) the organic acid fermentation liquid of (1) wherein sodium chloride is added to the liquid;
(3) the organic acid fermentation liquid of (1) or (2) wherein the fermentation is acetate or citric acid fermentation;
(4) a modifier of protein-containing materials which comprises the organic acid fermentation liquid of (1);
(5) the modifier of (3) wherein the protein-containing material is selected from the group consisting of animal meats, fishery products and beans;
(6) a method for modifying a protein-containing material wherein the protein-containing material is contacted with the organic acid fermentation liquid of (1);
(7) the method of (5) wherein the protein-containing material is selected from the group consisting of animal meats, fishery products and beans;
(8) a modifier of plant cells which comprises the organic acid fermentation liquid of (1);
(9) the modifier of (8) wherein the plant cells are derived from vegetables;
(10) a method for modifying plant cells wherein the plant cells are contacted with the organic acid fermentation liquid of (1); and
(11) the method of (10) wherein the plant cells are derived from vegetables.
Regarding the term “ionic repulsion” it is known, for example, that a divalent positive ion will decrease the moisture-holding ability of meat. It is assumed that this is because a divalent positive ion will reduce the electrical repulsive force between negative charge groups so that strong bonds are formed between peptide chains, whereby muscle is tensed and contracted. Thus, it is important to enhance electrical repulsive force to improve the moisture-holding ability of meat.
Factors involved in the moisture-holding ability include pH, positive ions, neutral salts, polyphosphate, citrate, muscular post-death change, electrical stimulation, freezing and thawing, heating temperature and others.
As described above, pH may have a great effect on incorporation of binding water in a protein molecule due to structural change caused by ionic repulsion, particularly in living cells and meat.
According to the present invention, pH is adjusted to generate ionic repulsion.
Meat myosin protein has an isoelectric point of about pH5.0, and it is known to become more exudative at an alkaline pH higher than pH5.0. The maximum efficiency can be seen at pH8-9, though the pH will rapidly drop due to the release of endogenous organic acids in meat or cells.
Polyphosphates or the like have conventionally been used as pH adjusting agents, but they could not inhibit such rapid pH drop caused by the release of endogenous organic acids.
According to the present invention, fermentation liquid may contain an organic acid salt or salts so as to maintain the efficiency by enhancing a high buffering effect to prevent such pH drop.
Under conditions of an alkaline pH and the presence of water, applying negative ions to meat or living cells will result in transfer of various extra- or intra-cellular components. For edible meat, this treatment will improve the taste of meat by allowing their flavorous components (e.g. amino acids, bases, nucleic acids and the like) which are present in the cells to ooze out. Preferable pH range is pH8-9 though pH6-10 can provide the efficient ooze.
The product of the present invention can be produced by the process comprising the following steps:
1. Medium conditioning (carbohydrate, protein, amino acid and mineral)
2. Fermentation (inoculation) inoculate
3. Neutralization (addition) sodium carbonate, sodium bicarbonate or calcium
4. Ripening culture
5. Filtration
6. Sterilization
7. Filling
8. Final product.
Preferable carbohydrates are saccharides and starch.
Any carbonate having a carbonate ion may be used though sodium carbonate, sodium bicarbonate and calcium carbonate are preferable.
Examples of applicable organic acid fermentation are shown in Table 1:
TABLE 1
Carbohydrate as
Main components in
Strains
energy source
fermentation liquid
Aspergillus niger
Glucose
Citrate, Carbonate ions, Cl
−
Acetobacter aceti
Ethanol
Acetate, Carbonate ions, Cl
−
Aspergillus flavus
Glucose
Malate, Carbonate ions, Cl
−
Lactobacillus
Glucose
Lactate, Carbonate ions, Cl
−
delbruckii
Aspergillus niger, Acetobacter aceti, Aspergillus flavus and Lactobacillus delbruckii have been deposited as IAM3001 and ATCC6275, IAM1802, IAM3003 and ATCC9643, and IAM124741 and ATCC9649, respectively.
Particularly, acetate fermentation and citrate fermentation are more practical.
The fermentation according to the present invention may be performed according to any conventional method though carbonate salt may preferably be added in a stepwise manner during the fermentation process.
Fermentation liquid may contain 5% or more and preferably about 10% organic acid, and the liquid may desirably be kept at pH8.0 after neutralization.
An organic acid fermentation liquid which also contains 6-10% sodium chloride will provide improved moisture-holding ability.
Adding the obtained fermentation liquid to proteins in the living cells or proteins in the presence of water will cause ionic repulsion in terminal filaments of proteins to form gaps therebetween, thereby permitting transfer of intra-and extra-cellular water and components contained therein. By using this mechanism, it has been made possible to utilize such fermentation liquid, in various industrial fields, for reversibly converting the functions of cells and/or proteins. Moreover, there is no possibility of side effect such as caused by polyphosph
Ishimoto Akiko
Kumabe Kiyoshi
Yanaka Hiroyuki
Finnegan Henderson Farabow Garrett & Dunner LLP
KITII Corporation Ltd.
Pratt Helen
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